Richard van Nieuwenhoven

This is my personal site where I collect the projects I am working on
currently. They are base located in github and on sourceforge. This site
hosts a copy of the sites of these projects under the reverse maven
groupId domain.

I noticed that specially scientific Java projects have problems
deploying the code to the public, and are just publishing there jars as
they are. When I “need” such a project, I will try to help the
developers to get the project on a public platform like sourceforge or
github, and setup the system so they can deploy to the central repository.

This a republished version of the inxar tool jenesis, because the original library is not available in the internet anymore. It is a Library to generate Java 8 code using a simple to use domain object model. [https://sourceforge.net/projects/jenesis4java]

Pure java Java library for reading and writing FITS files. FITS, the Flexible Image Transport System, is the format commonly used in the archiving and transport of astronomical data. [https://github.com/nom-tam-fits/nom-tam-fits]

jwifisd

JWiFiSD is a generic pure Java library API to access the different wifi-sd cards available on the market in a transparent way. The Java developer using the library does not have to know the specifics of the differed cards. They will be detected automatically and appropriate events are send back over the Java API. [https://github.com/jwifisd/jwifisd]

quickhull3d

This is a 3D implementation of QuickHull for Java, based on the original paper by Barber, Dobkin, and Huhdanpaa and the C implementation known as qhull. The algorithm has O(n log(n)) complexity, works with double precision numbers, is fairly robust with respect to degenerate situations, and allows the merging of co-planar faces.
[https://github.com/Quickhull3d/quickhull3d]

If you have such a scientific Java project, feel free to ask me for
help. I will at least try to help you with examples and when the project
takes my special interest I will take hand to the migration.